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- Title
Optimal combination treatment regimens of vaccine and radiotherapy augment tumor-bearing host immunity.
- Authors
Zhang, Fayun; Zheng, Zifeng; Barman, Apurba Kumar; Wang, Zihao; Wang, Luyao; Zeng, Wenfeng; Wang, Luoyang; Qin, Yan; Pandey, Asmita; Zhang, Chunling; Liang, Wei
- Abstract
A major obstacle to immunotherapy is insufficient infiltration of effector immune cells into the tumor microenvironment. Radiotherapy greatly reduces tumor burden but relapses often occur. Here we show that the immunosuppressive tumor microenvironment was gradually established by recruiting Tregs after radiation. Despite tumors being controlled after depletion of Tregs in the irradiated area, improvement of mice survival remained poor. A much better antitumor effect was achieved with vaccination followed by radiation than other treatments. Vaccination followed by radiation recruited more effector T cells in tumor regions, which responded to high levels of chemokines. Sequential combination of vaccination and radiotherapy could elicit distinct host immune responses. Our study demonstrated that optimal combination of irradiation and vaccination is required to achieve effective antitumor immune responses. We propose a combination regimen that could be easily translated into the clinic and offer an opportunity for rational combination therapies design in cancer treatment. Zhang et al. use mouse tumor models to show that the optimum treatment regime for Treg-induced radiation resistance is vaccine administration followed by radiation therapy. This finding could inform the design of future combinatorial cancer therapies in the clinic.
- Subjects
RADIOTHERAPY; IMMUNOSUPPRESSIVE agents; THERMODYNAMICS; CYTOLOGY; CELL membranes
- Publication
Communications Biology, 2021, Vol 4, Issue 1, p1
- ISSN
2399-3642
- Publication type
Article
- DOI
10.1038/s42003-020-01598-6